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Digital-Research-Source-Code/ASSEMBLY & COMPILE TOOLS/PLM VAX COMPILER/plmvax/nodes.for
Sepp J Morris 31738079c4 Upload 
Digital Research
2020-11-06 18:50:37 +01:00

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C***********************************************************************
C
C NODES.FOR
C
C
C D I S C L A I M E R N O T I C E
C ------------------- -----------
C
C This document and/or portions of the material and data furnished
C herewith, was developed under sponsorship of the U. S. Government.
C Neither the U.S. nor the U.S.D.O.E., nor the Leland Stanford Junior
C University, nor their employees, nor their respective contractors,
C subcontractors, or their employees, makes any warranty, express or
C implied, or assumes any liability or responsibility for accuracy,
C completeness or usefulness of any information, apparatus, product
C or process disclosed, or represents that its use will not infringe
C privately-owned rights. Mention of any product, its manufacturer,
C or suppliers shall not, nor is it intended to, imply approval, dis-
C approval, or fitness for any particular use. The U. S. and the
C University at all times retain the right to use and disseminate same
C for any purpose whatsoever. Such distribution shall be made by the
C National Energy Software Center at the Argonne National Laboratory
C and only subject to the distributee furnishing satisfactory proof
C that he has a valid license from the Intel Corporation in effect.
C
C
C-----------------------------------------------------------------------
C
C This module of the PL/M-VAX compiler contains routines to create
C nodes of a code tree, and to determine the type of a node.
C
C-----------------------------------------------------------------------
C R E V I S I O N H I S T O R Y
C
C 20OCT81 Alex Hunter 1. Added disclaimer notice. (V5.4)
C 21OCT81 Alex Hunter 1. Basic block analysis. (V5.5)
C 10NOV81 Alex Hunter 1. Add serial no. deltas. (6.0)
C
C-----------------------------------------------------------------------
INTEGER*2 FUNCTION MAKE_NODE(OP,OPND1,OPND2,TYPE,REG,REFCT)
INCLUDE 'PLMCOM.FOR/NOLIST'
REAL*8 RVAL
INTEGER*4 IVAL,IVAL1
IF (NEXT_NODE.GT.NODE_MAX) CALL FATAL('NODE TABLE OVERFLOW')
OPNODE_OP(NEXT_NODE)=OP
OPNODE_OPND1(NEXT_NODE)=OPND1
OPNODE_OPND2(NEXT_NODE)=OPND2
NODE_TYPE(NEXT_NODE)=TYPE
NODE_REG(NEXT_NODE)=REG
NODE_REFCT(NEXT_NODE)=0
NODE_CONTEXT(NEXT_NODE)=0
MAKE_NODE=NEXT_NODE
NEXT_NODE=NEXT_NODE+1
RETURN
C---------------------------------------
ENTRY MAKE_ATOM(SYM,MEM,BASE,SUBSCRIPT,TYPE,REG,REFCT)
C---------------------------------------
IF (NEXT_ATOM.GT.ATOM_MAX) CALL FATAL('ATOM TABLE OVERFLOW')
ATOM_SYM(NEXT_ATOM)=SYM
ATOM_MEM(NEXT_ATOM)=MEM
ATOM_BASE(NEXT_ATOM)=BASE
ATOM_SUB(NEXT_ATOM)=SUBSCRIPT
ATOM_DISP(NEXT_ATOM)=0
ATOM_FLAGS(NEXT_ATOM)=0
NODE_TYPE(NEXT_ATOM)=TYPE
NODE_REG(NEXT_ATOM)=REG
NODE_REFCT(NEXT_ATOM)=0
NODE_CONTEXT(NEXT_ATOM)=CONTEXT(TYPE)
IF (MEM.NE.0) THEN
ATOM_SERIAL_NO(NEXT_ATOM)=MEMBER_SERIAL_NO(MEM)
ELSEIF (SYM.NE.0) THEN
ATOM_SERIAL_NO(NEXT_ATOM)=SYMBOL_SERIAL_NO(SYM)
ELSE
ATOM_SERIAL_NO(NEXT_ATOM)=-1
ENDIF
IF (SYM.NE.0.AND.SYMBOL_REF(SYM).EQ.S_EXT) THEN
ATOM_SERIAL_NO(NEXT_ATOM) =
# ATOM_SERIAL_NO(NEXT_ATOM) + EXTERNAL_SERIAL_DELTA
ENDIF
IF (BASE.NE.NULL) THEN
ATOM_SERIAL_NO(NEXT_ATOM) =
# ATOM_SERIAL_NO(NEXT_ATOM) + BASED_SERIAL_DELTA
ENDIF
IF (SUBSCRIPT.NE.NULL) THEN
ATOM_SERIAL_NO(NEXT_ATOM) =
# ATOM_SERIAL_NO(NEXT_ATOM) + SUBSCRIPTED_SERIAL_DELTA
ENDIF
IF ((SYMBOL_FLAGS(SYM).AND.S_OVERLAID).NE.0) THEN
ATOM_SERIAL_NO(NEXT_ATOM) =
# ATOM_SERIAL_NO(NEXT_ATOM) + OVERLAID_SERIAL_DELTA
ENDIF
MAKE_ATOM=NEXT_ATOM
NEXT_ATOM=NEXT_ATOM+1
RETURN
C---------------------------------------
ENTRY MAKE_FIXED(IVAL,TYPE)
C---------------------------------------
IVAL1=IVAL
GO TO 10
C---------------------------------------
ENTRY MAKE_FIXED2(I2VAL,TYPE)
C---------------------------------------
IVAL1=I2VAL
10 IF (NEXT_FIXED.GT.FIX_MAX)
# CALL FATAL('FIXED POINT LITERAL TABLE OVERFLOW')
FIXED_VAL(NEXT_FIXED)=IVAL1
NODE_TYPE(NEXT_FIXED)=TYPE
NODE_REG(NEXT_FIXED)=0
NODE_REFCT(NEXT_FIXED)=0
IF (TYPE.EQ.0) THEN
NODE_CONTEXT(NEXT_FIXED)=0
ELSEIF (TYPE.EQ.S_INTEGER) THEN
NODE_CONTEXT(NEXT_FIXED)=CX_SIGNED
ELSE
NODE_CONTEXT(NEXT_FIXED)=CX_UNSIGNED
ENDIF
MAKE_FIXED=NEXT_FIXED
NEXT_FIXED=NEXT_FIXED+1
RETURN
C---------------------------------------
ENTRY MAKE_FLOAT(RVAL,TYPE)
C---------------------------------------
IF (NEXT_FLOAT.GT.FLT_MAX)
# CALL FATAL('FLOATING POINT LITERAL TABLE OVERFLOW')
FLOAT_VAL(NEXT_FLOAT)=RVAL
NODE_TYPE(NEXT_FLOAT)=TYPE
NODE_REG(NEXT_FLOAT)=0
NODE_REFCT(NEXT_FLOAT)=0
NODE_CONTEXT(NEXT_FLOAT)=CX_SIGNED
MAKE_FLOAT=NEXT_FLOAT
NEXT_FLOAT=NEXT_FLOAT+1
RETURN
C---------------------------------------
ENTRY MAKE_CONSTANT(LL,TYPE)
C---------------------------------------
IF (NEXT_CONSTANT.GT.CON_MAX)
# CALL FATAL('CONSTANT TABLE OVERFLOW')
CONSTANT_LABEL(NEXT_CONSTANT)=LL
NODE_TYPE(NEXT_CONSTANT)=TYPE
NODE_REG(NEXT_CONSTANT)=0
NODE_REFCT(NEXT_CONSTANT)=0
NODE_CONTEXT(NEXT_CONSTANT)=CONTEXT(TYPE)
MAKE_CONSTANT=NEXT_CONSTANT
NEXT_CONSTANT=NEXT_CONSTANT+1
RETURN
C---------------------------------------
ENTRY MAKE_REGISTER(REG,TYPE)
C---------------------------------------
NODE_TYPE(REG)=TYPE
NODE_REG(REG)=REG
NODE_REFCT(REG)=0
NODE_CONTEXT(REG)=CONTEXT(TYPE)
MAKE_REGISTER=REG
RETURN
END
C--------------------------------------------------------------
FUNCTION NODE(LINK)
INCLUDE 'PLMCOM.FOR/NOLIST'
NODE=LINK.GE.NODE_MIN.AND.LINK.LE.NODE_MAX
RETURN
C---------------------------------------
ENTRY ATOM(LINK)
C---------------------------------------
ATOM=LINK.GE.ATOM_MIN.AND.LINK.LE.ATOM_MAX
RETURN
C---------------------------------------
ENTRY LITERAL(LINK)
C---------------------------------------
LITERAL=LINK.GE.FIX_MIN.AND.LINK.LE.FIX_MAX.OR.
# LINK.GE.FLT_MIN.AND.LINK.LE.FLT_MAX
RETURN
C---------------------------------------
ENTRY FIXLIT(LINK)
C---------------------------------------
FIXLIT=LINK.GE.FIX_MIN.AND.LINK.LE.FIX_MAX
RETURN
C---------------------------------------
ENTRY FLOATLIT(LINK)
C---------------------------------------
FLOATLIT=LINK.GE.FLT_MIN.AND.LINK.LE.FLT_MAX
RETURN
C---------------------------------------
ENTRY CONSTANT(LINK)
C---------------------------------------
CONSTANT=LINK.GE.CON_MIN.AND.LINK.LE.CON_MAX
RETURN
C---------------------------------------
ENTRY REGISTER(LINK)
C---------------------------------------
REGISTER=LINK.GE.REG_MIN.AND.LINK.LE.REG_MAX
RETURN
END
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